Keywords
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absorption, adsorption isotherm, adsorption
kinetics, nanomaterials, pollutant
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Abstract
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Three types of layered double hydroxides (LDHs) including
Mg-Fe, Mg-Al-Fe, and Mg-Zn-Al-Fe were synthesized by the
coprecipitation method. Nanoparticles of the LDH adsorbents
were characterized by X-ray powder diffraction (PXRD), thermal
gravimetric analysis (TGA), Fourier transform infrared
spectroscopy (FT-IR), and specific surface area measurement.
The size and morphology of nanoparticles were inspected by
scanning electron microscopy (SEM). The comparative study
was performed to evaluate the effect of cation variety on removal
of C.I. Reactive Red 43 dye. Adsorption capacity of LDHs was
obtained as: 279.23, 210.4, 150.03 mg/g for 4, 3, and 2 cationic
LDH respectively. Batch adsorption experiments were carried
out at room temperature (258C) under various conditions such
as contact time, solution pH, and dye concentration (20–60-
100 mg/L). Results revealed that adsorption rate increases with
increase in contact time as long as equilibration is established
and decreases as dye concentration increases. The effect of solution
pH was investigated and urban water pH without adjustment
was selected as the operational pH. It was found that the
adsorption capacity of LDH containing four cations (Mg-Zn-Al-
Fe) is higher than that of others which can be attributed to the
highest degree of crystallinity and the highest total pore volume
(0.059 cm3/g) of this LDH. The kinetic and isotherm studies
were performed on four cationic LDH and the results show that
adsorption of dye onto LDH fits to the Freundlich equation as
well, which confirms multilayer adsorption. Moreover, the
regeneration study indicates that the prepared LDH could be
used for several cycles.
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